The best way to demonstrate this without actually using a `dict`

anywhere is probably to implement something dead simple, very different from `dict`

, and not completely useless. Like a fixed-sized mapping of fixed-size `bytes`

to same-fixed-size `bytes`

. (You might use this for, e.g., a routing table—it'll be much more compact than a `dict`

mapping unpacked keys to unpacked values, although obviously at the cost of speed and flexibility.)

A hash table is just an array of `(hash, key, value)`

tuples. Since the whole point of this is packing data in, we cram those into a `struct`

, meaning we can just use a big `bytearray`

for storage. To mark a slot empty, we set its hash value to `0`

—which means we need to "escape" any real `0`

by turning it into a `1`

, which is stupid, but simpler to code. We'll also use the dumbest possible `probe`

algorithm for simplicity.

```
class FixedHashTable(object):
hashsize = 8
def __init__(self, elementsize, size):
self.elementsize = elementsize
self.size = size
self.entrysize = self.hashsize + self.elementsize * 2
self.format = 'q{}s{}s'.format(self.elementsize, self.elementsize)
assert struct.calcsize(self.format) == self.entrysize
self.zero = b'\0' * self.elementsize
self.store = bytearray(struct.pack(self.format, 0,
self.zero, self.zero)
) * self.size
def hash(self, k):
return hash(k) or 1
def stash(self, i, h, k, v):
entry = struct.pack(self.format, h, k, v)
self.store[i*self.entrysize:(i+1)*self.entrysize] = entry
def fetch(self, i):
entry = self.store[i*self.entrysize:(i+1)*self.entrysize]
return struct.unpack(self.format, entry)
def probe(self, keyhash):
i = keyhash % self.size
while True:
h, k, v = self.fetch(i)
yield i, h, k, v
i = (i + 1) % self.size
if i == keyhash % self.size:
break
```

As the error message says, you need to provide implementations for the abstract methods `__delitem__`

, `__getitem__`

, `__iter__`

, `__len__`

, and `__setitem__`

. However, a better place to look is the docs, which will tell you that if you implement those five methods (plus any other methods required by the base classes, but as you can see from the table there are none), you'll get all the other methods for free. You may not get the most efficient possible implementations of all of them, but we'll come back to that.

First, let's deal with `__len__`

. Normally people expect this to be O(1), which means we need to keep track of it independently, updating it as needed. So:

```
class FixedDict(collections.abc.MutableMapping):
def __init__(self, elementsize, size):
self.hashtable = FixedHashTable(elementsize, size)
self.len = 0
```

Now, `__getitem__`

just probes until it finds the desired key or reaches the end:

```
def __getitem__(self, key):
keyhash = self.hashtable.hash(key)
for i, h, k, v in self.hashtable.probe(keyhash):
if h and k == key:
return v
```

And `__delitem__`

does the same thing, except it empties out the slot if found, and updates `len`

.

```
def __delitem__(self, key):
keyhash = self.hashtable.hash(key)
for i, h, k, v in self.hashtable.probe(keyhash):
if h and k == key:
self.hashtable.stash(i, 0, self.hashtable.zero, self.hashtable.zero)
self.len -= 1
return
raise KeyError(key)
```

`__setitem__`

is a bit trickier—if found, we have to replace the value in the slot; if not, we have to fill an empty slot. And here we have to deal with the fact that the hash table may be full. And of course we have to take care of `len`

:

```
def __setitem__(self, key, value):
keyhash = self.hashtable.hash(key)
for i, h, k, v in self.hashtable.probe(keyhash):
if not h or k == key:
if not h:
self.len += 1
self.hashtable.stash(i, keyhash, key, value)
return
raise ValueError('hash table full')
```

And that leaves `__iter__`

. Just as with a `dict`

, we don't have any particular order, so we can just iterate the hash table slots and yield all the non-empty ones:

```
def __iter__(self):
return (k for (h, k, v) in self.hashtable.fetch(i)
for i in range(self.hashtable.size) if h)
```

While we're at it, we might as well write a `__repr__`

. Note that we can use the fact that we get `items`

for free:

```
def __repr__(self):
return '{}({})'.format(type(self).__name__, dict(self.items()))
```

However, note that the default `items`

just creates an `ItemsView(self)`

, and if you track that through the source, you'll see that it iterates `self`

and looks up each value. You can obviously do better if the performance matters:

```
def items(self):
pairs = ((k, v) for (h, k, v) in self.hashtable.fetch(i)
for i in range(self.hashtable.size) if h)
return collections.abc.ItemsView._from_iterable(pairs)
```

And likewise for `values`

, and possibly other methods.